The percent error in the rate of heat transfer from the fin when the infinitely long fin assumption is used instead of the adiabatic fin tip assumption is approximately 0.86%.
Calculate the heat transfer rates for both assumptions:
- Infinitely long fin assumption:
Q_inf = h * P * L * (T_b - T_inf)
- Adiabatic fin tip assumption:
m = √(h * P / (k * A_c))
θ = tanh(m * L)
Q_adiabatic = h * P * L * (T_b - T_inf) * (1 - θ / (m * L))
Determine the percent error:
Percent error = ((Q_inf - Q_adiabatic) / Q_inf) * 100%
Plug in the given values:
d = 4 mm = 0.004 m
L = 10 cm = 0.1 m
k = 237 W/m·K
h = 12 W/m²·K
Calculate the parameters:
A_c = π * (d/2)² = 1.2566 × 10⁻⁵ m²
P = π * d = 0.012566 m
m = √(12 * 0.012566 / (237 * 1.2566 × 10⁻⁵)) = 8.485 m⁻¹
θ = tanh(8.485 * 0.1) = 0.757
Calculate the heat transfer rates:
Q_inf = 12 * 0.012566 * 0.1 * (T_b - T_inf)
Q_adiabatic = 12 * 0.012566 * 0.1 * (T_b - T_inf) * (1 - 0.757 / (8.485 * 0.1))
Calculate the percent error:
Percent error = ((Q_inf - Q_adiabatic) / Q_inf) * 100% ≈ 0.86%